JP5576144B2 - Weather information display system - Google Patents

Description

  The present invention relates to a meteorological information display system, and more specifically, the occurrence of flooding of rivers, heavy rain and flooding, landslides, lightning strikes, etc. (physical natural phenomena) from forecast materials and actual values provided by the Japan Meteorological Agency and Japan Meteorological Co., Ltd. The present invention relates to a meteorological information display system that analyzes the presence / absence of data and displays the analysis result as notification information on a display unit installed at a specific location.

  In recent years, with the development of rivers, parks, water playgrounds, and the like have been established on riverbanks and Nakasu. Such a place is not problematic under weather conditions where there is no danger of the river growing. However, if there is heavy rain during a typhoon, long rain during the rainy season, heavy rain in the water source or upstream area, the water in the river increases, and there is a danger of sudden water increase especially in the downstream area of the river.

  Therefore, in rivers where parks and water playgrounds are set up in riverbanks such as downstream areas and in the central region, the manager who manages these places or rivers inquires about the weather in these river areas from Japan Meteorological Co., Ltd. When it is predicted that there is a risk of water increase due to heavy rain or torrential rain during a typhoon, use public information vehicles and other personnel to provide warnings and warnings to people in parks, water playgrounds, etc. Like to do.

  Conventionally, alarm devices have been installed in parks, water playgrounds, etc. on riverbanks and in Nakasu, and alarms or caution signals are transmitted to these alarm devices through a dedicated communication line laid from the management center. A technology has also been developed in which a device is driven to issue an alarm or warning to alert a person at a specific location (see Patent Document 1).

JP 2002-357670 A

  However, the above-mentioned method of performing warnings and warnings using human resources such as public information vehicles takes time until warnings or warnings are issued on the spot after the risk of flooding in rivers due to heavy rains is confirmed. As a result, there is a problem that the site is exposed to the risk of water increase before warning or warning is issued, which is lacking in urgency and practicality.

  Further, in the method of displaying an alarm or warning information on the local alarm device from the management center through the communication line, it is possible to display the alarm or warning information before the site is exposed to the risk of water increase. However, on the other hand, since the management center and the local alarm device are connected by a dedicated communication line, there is a problem that the communication equipment is expensive and the communication cost is also increased. In addition, since a commercial power source is used to drive the alarm device, the use of fossil energy is disadvantageous in terms of the environment, and the maintenance cost of the alarm device also increases.

  The present invention has been made in view of the above points, and whether or not there is a physical natural phenomenon such as increase in river water, heavy rain or flood, obtained from the forecast data provided and analysis results of actual values. It is an object of the present invention to provide a weather information display system that can transmit and display the contents of notification representing the cost at a low cost, and at the same time, can reduce the cost of maintenance management of facilities.

In order to achieve the above object, the invention of claim 1 is a weather information display system, wherein each monitoring data is obtained from a value obtained by analyzing forecast data and actual values obtained from the outside for each of a plurality of monitoring districts. Predict changes in the area's weather, and informed by e-mail the information on the contents of physical natural phenomena such as flooding of rivers, heavy rains and floods, and the presence or absence of physical natural phenomena that are predicted to occur according to the predicted weather The notification information providing server to be provided, a plurality of monitoring towers that are installed for each monitoring area and have a light display panel for displaying the content of the notification information, and whenever the notification information providing server is accessed via the Internet, The notification processing device that converts the notification information provided from the notification information providing server into character data and display data commands for each monitoring district and issues the notification for each monitoring tower, and the notification A first transceiver for sending transfer is connected to the sense device alarm character data and display data command to each of the monitoring tower from the calling report processing device to said electronic display panel through P HS network, the monitoring tower a second transceiver for receiving and outputting the character data and the display data command is transmitted through the PHS network from the first transceiver provided in each said electronic display panel, each connected to the Internet And a monitoring terminal for maintenance management of the monitoring tower and its communication system, and a first current sensor provided for each of the monitoring towers and detecting a current flowing through the lightning display panel of each of the monitoring towers. The alarm processor determines whether a communication path between the first transceiver and the second transceiver connecting the alarm processor and the monitoring tower is normally connected. Detected by a first determination means, a second determination means for determining whether or not the character data of the notification information is normally transmitted / received between the first transmitter / receiver and the second transmitter / receiver, and the first current sensor A third determination unit for determining normality / abnormality of the electric display panel based on the measured current, the determination result of the first determination unit, the determination result of the second determination unit, and the determination of the third determination unit The result is converted into character data and display data commands, transmitted to the monitoring terminal through the Internet, and the monitoring contents of the monitoring tower and its communication system are displayed on the monitoring terminal, and each monitoring The tower is provided for each monitoring tower and includes an imaging camera that images the surroundings of the monitoring tower and an illumination lamp that illuminates the surroundings of the monitoring tower, and the alarm processing device includes the second transceiver, PHS Image data sending means for sending a photographed image of the imaging camera transmitted through the wire network and the first transceiver to the monitoring terminal via the Internet, and the photographed image transmitted by the image data sending means is The monitoring terminal is configured to display on the monitoring terminal, and each monitoring tower is configured to supply power to a load including the light display panel, the second transmitter / receiver, the imaging camera, and the illuminating lamp in the event of a power failure, and to the battery And a charge / discharge control circuit for controlling power supply from the battery to the load, and a second current sensor for detecting a charge / discharge current of the battery, and the alarm processor further includes the second current sensor. Further comprising third determination means for determining normality / abnormality of the battery on the basis of the current detected in step 3, wherein the alarm processing device includes the third determination means. The determination result is converted into character data, transmitted to the monitoring terminal through the Internet, and the determination result is displayed on the monitoring terminal .

According to a second aspect of the invention, the weather information display system according to claim 1, wherein each monitoring column, rotating lamp rotates while lights when the broadcast content on the electronic display panel of the monitoring tower is displaying a character It is characterized by providing.

  According to the meteorological information display system of the present invention, occurrence of physical natural phenomena such as flooding of rivers, heavy rain and flooding obtained from forecast data provided by the Japan Meteorological Agency and Japan Meteorological Co., Ltd. and analysis results of actual values In addition, it is possible to transmit and display the contents of notification representing them on the electric display panel at a low cost, and at the same time, maintenance management of equipment including the electric display panel can be performed at a low cost.

1 is an overall configuration diagram of a weather information display system according to the present invention. It is a block diagram which shows the internal structure of the alerting | reporting processing apparatus which comprises the weather information display system concerning this invention. It is a side view which shows the detailed structure of the monitoring tower which comprises the weather information display system concerning this invention. It is a block diagram which shows the internal structure of the monitoring tower which comprises the weather information display system concerning this invention. It is a flowchart for demonstrating the whole processing operation | movement in the weather information display system of this invention. It is a flowchart for demonstrating the processing operation of the alert processing apparatus in the weather information display system of this invention.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of a weather information display system according to the present invention will be described in detail with reference to FIGS. In addition, the portable monitoring apparatus concerning this invention is not limited to embodiment described below.

  The weather information display system shown in this embodiment analyzes the occurrence of physical natural phenomena such as river flooding, heavy rain and flooding from forecast materials and actual values provided by the Japan Meteorological Agency and Japan Meteorological Co., Ltd. The analysis result is displayed as notification information on an electric display board of a monitoring tower installed in the monitoring district.

  As shown in FIG. 1, the weather information display system includes a notification information providing server 12 connected to the Internet 11 via a communication control unit 1202, and a notification processing apparatus connected to the Internet 11 via a communication control unit 1301. 13, a management monitoring terminal 14 connected to the Internet 11, and a plurality of monitoring towers 15 installed in each monitoring area.

  Here, the forecast data is the analytical rainfall, precipitation time, guidance forecast, etc. predicted from the values obtained by analyzing the observation data. The actual value is a numerical value of a meteorological element that represents the present condition of weather such as precipitation, wind speed, temperature, and sunshine, or a physical quantity derived from the meteorological element.

  The notification information providing server 12 analyzes each data of the forecast data and actual values obtained from the Japan Meteorological Agency 16 or the observation station 17 or an organization that creates weather-related information for each monitoring area from each monitoring area. Predicting weather changes and providing information in the form of e-mails indicating the contents of physical natural phenomena such as river flooding, heavy rain and flooding, and the presence or absence of physical natural phenomena that are predicted to occur according to the predicted weather It consists of a microcomputer.

  The broadcast information providing server 12 is connected to a broadcast information database 1201 that can be input and output by the broadcast information providing server 12. The notification information database 1201 stores the notification information for each monitoring district, and the content of the notification information in each monitoring district is changed in response to changes in forecast materials and actual values, and the content of the notification information each time. Is also updated.

  The notification processing device 13 monitors the notification information provided from the notification information providing server 12 every time it automatically accesses the notification information providing server 12 through the Internet 11 and the communication control unit 1301 at a predetermined time. Each character data is converted into character data and reported to the corresponding monitoring tower 15, and the monitoring results of the operation status and communication status of the monitoring tower 15 are converted into character data for each monitoring area and reported to the monitoring terminal 14. Is. Connected to the notification processing device 13 is a database 1302 for storing character information for converting the contents of the notification information into characters and characters for converting the contents of the monitoring results into characters. Further, the alarm processor 13 includes an input / output interface for a PHS-specific first transmitter / receiver 18 that transmits the character data of the notification information issued from the alarm processor 13 for each monitoring tower 15. The connection is made through 1303.

  The first transmitter / receiver 18 sends a plurality of base stations 1901 connected to the PHS line network 19 to the monitoring tower 15 of each monitoring area and the character data for notification and the display data command issued from the notification processing device 13. (Transmission method provided by PHS communication company Wilcom) In addition, the first transmitter / receiver 18 monitors the operation status of the monitoring tower 15 transmitted from the second transceiver 20 of the PHS specification provided in each monitoring tower 15 through the base station 1901 of the PHS network 19. It is configured to receive information such as results. Further, the monitoring result issued from the notification processing device 13 is configured to be transmitted to the monitoring terminal 14 through the communication control unit 1303 and the Internet 11.

  Whether the alarm processor 13 has been normally connected to the monitoring tower 15 based on the number of dials to the monitoring tower 15 by connection software and a modem (or TA / DSU) known in the prior art. First determination means 1304 for determining whether or not, second determination means 1305 for determining whether or not the character data of the notification information has been normally transmitted and received between the first transceiver 18 and the second transceiver 20; Image data for outputting to the monitoring terminal 14 a current image of the monitoring area captured by the third determination means 1306 for determining normality / abnormality of the electric display panel 21 and normality / abnormality of the battery 27 described later and the imaging camera 24 described later. Delivery means 1307 is provided.

  The image data sending means 1305 processes the image data received by the first transmitter / receiver 18 from the second transmitter / receiver 20 via the PHS network 19 so that the image data can be sent to the monitoring terminal 14 through the communication control unit 1301 and the Internet 11. It is.

  Note that the microcomputer constituting the alarm processor 13 includes a CPU, a ROM, a RAM, an interface, and the like connected via a bus line. The ROM stores processing executed by the CPU or a control program, and the RAM provides a working area for the database 1302. When the CPU executes the processing or the control program, the alert processing device 13, the first determination unit 1304, the second determination unit 1305, the third determination unit 1306, and the image data transmission unit 1307 are realized.

  The monitoring terminal 14 is used to monitor the operation status of the monitoring tower 15 and its communication system, and perform maintenance management of the monitoring tower 15 based on the monitoring result. For this reason, the respective determination results determined by the first determination unit 1304, the second determination unit 1305, and the third determination unit 1306 are converted into character data and display data commands representing the monitoring contents by the notification processing device 13. It is converted and transmitted to the monitoring terminal 14. Then, the monitoring contents are automatically displayed on the monitor 1401 of the monitoring terminal 14 as characters to notify the monitoring tower manager of the current status of the monitoring tower 15 and the current status of the communication system. Moreover, the monitoring terminal 14 can be comprised from a microcomputer.

  As shown in FIG. 3, the monitoring tower 15 has a hollow column 1501 standing on the ground in an area where it is necessary to notify and display a physical natural phenomenon such as river increase or heavy rain. The column 1501 is provided with an electric display panel 21 in which a large number of LEDs are arranged in a matrix so that characters can be displayed. Further, a rotating lamp 22 that rotates while being lit while the notification content is displayed in characters on the electric display panel 21 is attached to the upper end of the column 1501.

  Further, the second transmitter / receiver 20 that transmits / receives information to / from the first transmitter / receiver 18 through the base station 1901 of the PHS network 19 is attached to the support 1501. Further, the solar cell 23 is attached to the support 1501 via a support member 1504. In addition, an imaging camera 24 including a CCD image sensor that images the surroundings of the monitoring tower 15 and an illumination lamp 25 that illuminates the surroundings of the monitoring tower 15 are attached to the support 1501 via a support member 1505.

  A power supply circuit 26 for supplying power to a load including the second transmitter / receiver 20, the light display panel 21, the rotating lamp 22, the imaging camera 24, and the illumination lamp 25 and a battery 27 are provided inside the column 1501. It has been. The power supply circuit 26 converts commercial power into a voltage necessary for the load and supplies it to the load.

  As shown in FIG. 4, the battery 27 is for supplying power to the load at the time of a power failure or in an area where there is no power distribution facility. Charging and discharging of the battery 27 and power supply from the battery 27 to the load are performed. This is performed by the control circuit 28. Electric power generated from the solar battery 23 or electric power output from the power supply circuit 26 is used for charging the battery 27. Also, the second current sensor 30 for detecting the charge / discharge current of the battery 27 by the charge / discharge control circuit 28 in order to detect the normality / abnormality of the battery 27, and the normality of the electric display panel 21 due to display failure of the electric display panel 21, etc. / A first current sensor 29 that detects a current flowing through the light-emitting display board 21 to detect an abnormality and a signal processing unit 31 are provided.

  The signal processing unit 31 converts the display data based on the character data representing the notification content received by the second transmitter / receiver 20 through the PHS network 19 and the display data command, and outputs the display data to the electric display panel 21. The image information captured by the imaging camera 24 is converted into image data that can be transmitted and output to the second transmitter / receiver 20, and further transmitted to the first transmitter / receiver 18 through the second transmitter / receiver 20, and the first current sensor. 29 and a function of outputting the current value detected by the second current sensor 30 to the second transceiver 20 as normal / abnormal determination data.

The current value detected by the first current sensor 29 is configured to be taken into the third determination unit 1306 as normal / abnormal determination information of the electric display panel 21, and further the current detected by the second current sensor 30. The value is configured to be taken into the third determination unit 1306 as determination information for determining normality / abnormality of the battery 27.

  Next, the operation of the weather information display system shown in the present embodiment will be described with reference to FIGS.

  As shown in FIG. 5, the alarm processor 13 is initialized when the alarm processor 13 of the weather information display system is turned on (step S11). Thereafter, when the notification processing device 13 accesses the notification information providing server 12, the communication path between the two is established. Then, the broadcast information related to the monitoring area under the control of the alert processing device 13 is searched from the broadcast information database 1201 through the broadcast information providing server 12, and the broadcast information is searched for in the mail format in the Internet 11 and the communication control units 1202 and 1301. Then, it is transmitted to the alert processing device 13 (step S12).

  Upon receiving the notification information, the alert processing device 13 first analyzes the content of the notification information (step S13), and then determines whether or not to change the display (step S14). Here, when the display is not changed, the process proceeds to step S12, and the processes after step S12 are executed. If it is determined that the display is to be changed, the process proceeds to step S15, data necessary for the display change is extracted, and the process proceeds to the next notification process (step S16). This notification process is performed in order for each of the plurality of monitoring districts A, B, C.

Next, the alerting process will be described with reference to FIG.
First, it is determined whether or not the monitoring district where the notification processing is performed is a corresponding monitoring district under the control of the notification processing device 13 (step S1601). Here, if it is denied, it is returned. If the result is affirmative, the number of the monitoring tower 15 in the corresponding monitoring area is dialed by using conventionally known connection software and modem (or TA / DSU) (step S1602). As a result, the first transmitter / receiver 18 and the second transmitter / receiver 20 of the alarm processor 13 are connected via the PHS network 19 so that the alarm processor 13 can report to the monitoring tower 15. To. Thereafter, the first determination unit 1304 determines whether or not the line path between the first transmitter / receiver 18 and the second transmitter / receiver 20 is normally connected (step S1603). If the result is affirmative, the process proceeds to step S1604. If the result is negative, the process proceeds to step S1609, and each process is executed.

In the processing of step S1604, for example, when the predicted weather in the monitored area is predicted to be heavy rain, the alert processing device 13 refers to the database 1302, and “the heavy rain warning is being issued” and “heavy rain warning” Character string data with display contents such as “Initiated”, “Flood warning issued”, “Flood warning issued” or “Heavy rain warning released”, “Flood warning released” or “Lightning strike warning”, “Gust warning”, etc. And is reported to the corresponding monitoring tower 15 by the first transceiver 18. As a result, the contents of the character string are fixedly displayed or scroll-displayed on the electric display panel 21 of the monitoring tower 15. At the same time, it is lit while rotating the revolving lamp 22. Thereafter, it is determined whether or not the character string data alarm by the first transceiver 18 is received by the second transceiver 20 via PHS times grid 19 by the second judging means 1305 (step S1605). Here, if it is affirmed, it is returned. If the result is negative, the process proceeds to step S1606.

In step S1605, it is determined whether or not the retransmission by the first transmitter / receiver 18, that is, the retry is the fifth time. If the result is negative, the process proceeds to step S1604, and the processes after step S1604 are executed. Further, if an affirmative been the process proceeds to step S1607, it is determined that an abnormality has occurred in the first transceiver 18, PHS times grid 19 and the communication system of the second transceiver 20 to record the error. After that, after the error information is converted into character data by the alarm processing device 13, the communication control unit 1301 transmits the error information to the monitoring terminal 14 via the Internet 11 and displays a reception abnormality on the monitor 1401 of the monitoring terminal 14. (Step S1608) . This can inform that an abnormality in the first transceiver 18, PHS times grid 19 and the communication system of the second transceiver 20 is caused to the administrator.

On the other hand, if the result is NO in step S1603, redialing to the monitoring tower 15 in the corresponding monitoring area is repeatedly performed a plurality of times using conventionally known connection software and a modem. Next, it is determined whether or not the redialing by the conventionally known connection software and modem is the fifth time (step S1609). If the result is NO, the process proceeds to step S1602, and the processes after step S1602 are executed. If the determination is affirmative, the process proceeds to step S1610, where it is determined that the alarm processing device 13 is not normally connected to the monitoring tower 15, and an error is recorded. After that, after the error information is converted into character data by the alarm processing device 13, the communication control unit 1301 transmits the error information to the monitoring terminal 14 via the Internet 11, and the connection error of the communication line is connected to the monitor 1401 of the monitoring terminal 14. Is displayed (step S1611) . Thereby, it is possible to notify the administrator that a communication line connection abnormality has occurred.

  According to such a weather information display system shown in the present embodiment, the notification information providing server 12 analyzes forecast data and actual value data obtained from the Meteorological Agency 16 or the observation station 17 for each of a plurality of monitoring districts. Forecasting the weather changes in each monitoring area from the values obtained in this way, and providing information indicating the contents of physical natural phenomena such as river floods, heavy rains and floods that are predicted to occur according to the predicted weather changes. The notification processing device 13 receives the notification information provided from the notification information providing server 12 for each access to the notification information providing server 12 and analyzes the content of the received notification information. Then, it is converted into character data for each monitoring area, and is sent to the monitoring tower 15 through the first transmitter / receiver 18, the second transmitter / receiver 20 and the PHS network 19 of the PHS specification, and the contents of the notification information are Since it is configured to display characters on the display panel 21, the presence of occurrence of physical natural phenomena such as flooding of rivers, heavy rain and floods obtained from forecast data and analysis results of actual values, and notification contents representing them It can be transmitted and displayed on the electric display panel 21 at a low cost.

  In the weather information display system shown in the present embodiment, the current value at the time of charging / discharging of the battery 27 detected by the second current sensor 30 is used as determination data for determining normality / abnormality by the signal processing unit 31. Converted. This determination data is transmitted to the first transmitter / receiver 18 by the second transmitter / receiver 20 via the PHS network 19. Then, the determination data received by the first transceiver 18 is taken into the third determination unit 1306 to determine whether the battery 27 is normal or abnormal. This determination result is converted into an e-mail, and is transmitted to the monitoring terminal 14 via the Internet 11 by the communication control unit 1301. By displaying this e-mail on the monitor 1401 of the monitoring terminal 14, it is possible to notify the administrator that the battery 27 is normal or abnormal. Thereby, maintenance management of facilities including the electric light display panel 21 can be performed at low cost.

  In the weather information display system shown in the present embodiment, the value of the current flowing through the electric display panel 21 detected by the first current sensor 29 is used as determination data for determining normality / abnormality by the signal processing unit 31. Converted. This determination data is transmitted to the first transmitter / receiver 18 by the second transmitter / receiver 20 via the PHS network 19. Then, the determination data received by the first transmitter / receiver 18 is taken into the third determination means 1306 to determine whether the electronic display board 21 is normal or abnormal. This determination result is converted into an e-mail, and is transmitted to the monitoring terminal 14 via the Internet 11 by the communication control unit 1301. By displaying this e-mail on the monitor 1401 of the monitoring terminal 14, it is possible to notify the administrator that the electronic display board 21 is normal or abnormal. Thereby, maintenance management of facilities including the electric light display panel 21 can be performed at low cost.

  Next, a case where an image captured by the imaging camera 24 is displayed on the monitor 1401 of the monitoring terminal 14 will be described.

  In this case, after the image captured by the imaging camera 24 is converted into image data that can be transmitted by the signal processing unit 31, the second transceiver 20 transmits the image data to the first transceiver 18 via the PHS network 19. The image data received by the first transmitter / receiver 18 is transmitted to the monitoring terminal 14 via the Internet 11 by the communication control unit 1301, and the image captured by the imaging camera 24 is displayed on the monitor 1401 of the monitoring terminal 14. Therefore, by viewing the display image on the monitor 1401, the status of the monitoring tower 15 can be visually confirmed.

  Further, when the surroundings of the monitoring tower 15 are dark, such as cloudy or at night, the illumination lamp 25 is turned on. Thereby, even when the surroundings of the monitoring tower 15 are dark such as cloudy or at night, the surroundings of the monitoring tower 15 can be accurately monitored. Thereby, maintenance management of facilities including the electric light display panel 21 can be performed at low cost.

  Electric power can be supplied from the battery 27 to various loads mounted on the monitoring tower 15. Thereby, even if the commercial power supply which supplies electric power to the monitoring tower 15 is down, the monitoring tower 15 can be maintained in a monitoring system for about 12 hours using the electric power of the battery 27.

  In addition, a well-known illuminance sensor is provided in the monitoring tower 15, the ambient brightness is detected by the illuminance sensor, and the luminance of the electric display panel 21 is adjusted by the detection signal, so that the visual recognition suitable for the ambient brightness is achieved. A good display is possible.

  The display contents on the electric display panel 21 according to the present invention include “During heavy rain warning”, “During heavy rain warning”, “During flood warning”, “During flood warning” shown in the above embodiment. It is not limited to.

  In the present invention, the monitoring tower 15 is provided with a speaker, through which the weather such as “during heavy rain warning”, “during heavy rain warning”, “during flood warning”, “during flood warning”, etc. It is also possible to notify information by voice.

11 Internet 12 Broadcast Information Providing Server 1201 Broadcast Information Database 1202 Communication Control Unit 13 Alert Processing Unit 1301 Communication Control Unit 1302 Database 1303 Input / Output Interface 1304 First Determination Unit 1305 Second Determination Unit 1306 Third Determination Unit 1307 Image Data Transmission Unit 1307 DESCRIPTION OF SYMBOLS 14 Surveillance terminal 15 Monitoring tower 16 Meteorological Agency 17 Observatory 18 1st transmitter / receiver 19 PHS network 1901 Base station 20 2nd transmitter / receiver 21 Lightning display panel 22 Revolving lamp 23 Solar cell 24 Imaging camera 25 Illumination lamp 26 Power supply circuit 27 Battery 28 Charge / Discharge Control Circuit 29 First Current Sensor 30 Second Current Sensor 31 Signal Processing Unit

Claims (3)

Predict changes in the weather in each monitoring area from the values obtained by analyzing the forecast data obtained from the outside and each data of the actual value for each monitoring area, and the river forecasted to occur according to the predicted weather A notification information providing server that provides, in an e-mail format, notification information indicating the contents of physical natural phenomena such as water increase, heavy rain and flood, and the presence or absence of physical natural phenomena;
A plurality of monitoring towers having an electric display panel installed for each monitoring district and displaying the content of the notification information ;
Each time the broadcast information providing server is accessed via the Internet, the broadcast information provided from the broadcast information providing server is converted into character data and display data commands for each monitoring area and issued for each monitoring tower. An alarm processing device,
A first transceiver for sending heat to the electronic display panel of the calling report processing connected device to alarm character data and display data command to each of the monitoring tower from the calling report processing device through P HS network,
A second transceiver for output to the electronic display panel to receive the character data and the display data command is transmitted through the PHS network from the provided for each said monitoring tower the first transceiver,
A monitoring terminal for maintenance management of each monitoring tower and its communication system connected to the Internet;
A first current sensor provided for each monitoring tower and detecting a current flowing through the light display panel of each monitoring tower for each light display panel ;
The notification processing device determines whether or not a communication path between the first transmitter / receiver and the second transmitter / receiver connecting between the notification processing device and the monitoring tower is normally connected. Detected by a determination means, a second determination means for determining whether or not the character data of the notification information is normally transmitted / received between the first transmitter / receiver and the second transmitter / receiver, and the first current sensor. Third determination means for determining normality / abnormality of the electric display panel based on the measured current, the determination result of the first determination means, the determination result of the second determination means, and the determination result of the third determination means Is converted to character data and display data commands and transmitted to the monitoring terminal through the Internet, and the monitoring content of the monitoring tower and its communication system is displayed on the monitoring terminal,
Further, each monitoring tower has an imaging camera that is provided for each monitoring tower and images the surroundings of the monitoring tower, and an illumination lamp that illuminates the surroundings of the monitoring tower,
Further, the notification processing device includes image data sending means for sending a photographed image of the imaging camera transmitted through the second transceiver, the PHS network, and the first transceiver to the monitoring terminal through the Internet. Comprising the captured image transmitted by the image data sending means on the monitoring terminal,
Further, each monitoring tower includes a battery that supplies power to the load including the light display panel, the second transmitter / receiver, the imaging camera, and the illuminating lamp at the time of a power failure, charging the battery, and power supply from the battery to the load. A charge / discharge control circuit for controlling the battery, and a second current sensor for detecting a charge / discharge current of the battery,
Further, the alarm processing device further includes third determination means for determining normality / abnormality of the battery based on the current detected by the second current sensor, and the alarm processing device includes the third determination means. The determination result is converted into character data and transmitted to the monitoring terminal through the Internet, and the determination result is displayed on the monitoring terminal.
A weather information display system characterized by that. Wherein each monitoring tower, weather information display system according to claim 1 Symbol placement and further comprising a rotating lamp rotates while lights when the broadcast content on the electronic display panel of the monitoring tower is displaying a character . The battery, the weather information display system according to claim 1, characterized in that it is charged by a commercial power source or the solar cell through the charging and discharging control circuit.